Digital Advertising System

ABSTRACT

A digital advertising system includes an advertisements module that provides a number of digital advertisements for display on a digital display device. A digital al sign module including the digital display device displays digital advertisements provided by the advertisements module, and captures video analytics data relating to previous viewers of the digital advertisements displayed by the digital sign module. A data mining module retrieves the video analytics data from the digital sign module and generates trained advertising models based thereon using a data mining algorithm. A content management system module coupled to the advertisements module and the data mining module receives the digital advertisements and the trained advertising models and generates a subset of the advertisements for display based on the trained advertising models.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to Indian Patent Application No.2646/DEL/2011 filed on Sep. 13, 2011, entitled “Intelligent AdvertisingFramework System”, the disclosure of which is incorporated herein byreference in its entirety for all purposes.

FIELD OF THE INVENTION

Embodiments of the invention relate to a system for selectingadvertising to be displayed on a digital display device based on videoanalytics.

BACKGROUND OF THE INVENTION

Digital signage is the term that is often used to describe the use of anelectronic display device, such as a Liquid Crystal Display (LCD), LightEmitting Diode (LED) display, plasma display, or a projected display toshow news, advertisements, local announcements, and other multimediacontent in public venues such as restaurants or shopping malls. Inrecent years, the digital signage industry has experienced tremendousgrowth, and it is now only second to the Internet advertising industryin terms of annual revenue growth.

The deployment of digital signs is growing rapidly for good reason. Theyenable advertisers to show advertising (ad) content that is moreengaging and dynamic and to easily change the content in real time basedon new promotions, time of day, even weather and other events. Currentlythere is no way to determine the effectiveness of the ad content. One ofthe main challenges in the digital signage industry has been providingdigital signage operators with some clear return on investment (ROI)data. What is needed is a way for ad content to be targeted and adaptedto the specific demographics of the people viewing it.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the present invention will be understood more fully fromthe detailed description given below and from the accompanying drawingsof various embodiments of the invention, which, however, should not betaken to limit the invention to the specific embodiments, but are forexplanation and understanding only.

FIG. 1 illustrates in functional block form an embodiment of theinvention.

FIG. 2 is a flow chart of an embodiment of the invention.

FIG. 3 illustrates aspects of an embodiment of the invention.

FIG. 4 provides a block diagram of a content management system inaccordance with an embodiment of the invention.

FIG. 5 provides a block diagram of a digital sign module in accordancewith an embodiment of the invention.

FIG. 6A illustrates an aspect of an embodiment of the invention relatingto obtaining video analytic data relating to individual viewers withinan observable area of a digital sign.

FIG. 6B illustrates an aspect of an embodiment of the invention relatingto obtaining video analytic data relating to individual viewers withinan observable area of a digital sign.

FIG. 7 is a flow chart of an embodiment of the invention relating toobtaining anonymous video analytic data relating to individual viewerswithin an observable area of a digital sign.

DETAILED DESCRIPTION OF THE INVENTION

Anonymous Video Analytics (AVA) is a passive and automated audience orviewer measurement technology designed for digital signage networks thatcan be used to provide digital signage operators with quantitativeviewership information and return on investment (ROI) data. Embodimentsof the present invention are based on the concept of using AVA data anddata mining techniques to achieve targeted advertising, which can beused to measure and improve the advertising ROI of a digital sign.Additionally, by correlating AVA viewership information withpoint-of-sale (POS) data, embodiments can also be used to establish alink between the response time to an advertisement by a certaindemographic group and the effect on the sale of the advertised product.

Embodiments of the present invention make use of anonymous videoanalytics (AVA) in displaying advertising on a digital display device.By equipping digital signs with a sensor, such as one or morefront-facing cameras proximate the digital display device, and AVAsoftware coupled with powerful processors, such as Intel Core IS andIntel Core 17 processors, digital signs according to an embodiment ofthe invention have the intelligence to anonymously detect the number ofviewers, their gender, their age bracket, even their distance from theadvertising display screen and then adapt ad content based on thatinformation. For example, if a viewer is a teenage girl, then anembodiment of the invention may change the content to highlight a backto school shoe promotion a few stores down from where the digitaldisplay screen is located. If the viewer is a senior male, then anembodiment may cause the digital display screen to display anadvertisement about a golf club sale at a nearby sporting goods store.

According to an embodiment of the invention, ads can be better targeted,more relevant, and ultimately more effective. The embodiment makes thispossible by analyzing perhaps millions of pixels per second of videocontent in real time to determine if people are viewing the digitalsign, and if they are, determining their demographic characteristics.These intelligent digital signs can do even more, according toembodiments of the invention. For example, they can determine dwelltime, that is, how long viewers are watching the ads. These capabilitiesenable network operators, content providers, advertising agencies, andservice providers to better deliver relevant messages and measurenetwork and ad effectiveness with greater precision. By correlatingsales data with the ad shown and the audiences' demographics,advertisers can target ads directly to their audience and measure theireffectiveness. Additionally, for campaign planning andreturn-on-investment (ROI) measurement, AVA data can be correlated with“proof-of-play” data, that is data relating to what, where, and when anad was displayed on the digital sign, to determine content-specificviewership metrics by demographics and time of day.

Embodiments of the invention are based on the concept of targetedadvertising in which future viewers or customers belonging to the sameor similar demographic as previous viewers are targeted based on theviewing behavior or patterns of the previous viewers. By analyzing AVAor viewership data collected from previous viewers positioned in frontof a digital display, embodiments can discover viewing patterns and usethis information to train advertising models that can be deployed to thedigital sign. These advertising models can then be used to choosespecific advertisements from the inventory of available advertisingcontent to intelligently target future viewers.

The advertising models are based on data mining principles and can bebuilt using tools such as Microsoft's SQL Server Analysis System (MSSSAS). The advertising models are created using well-known data miningalgorithms such as Naïve Bayes, Decision Trees, and Association Rules,along with large scale clustering, all of which are available in MSSSAS.

The playback of multimedia content on a digital sign is accomplishedthrough a content management system (CMS). A description follows of thearchitecture of the digital advertising system in accordance with anembodiment of the invention, in which advertising models are deployed inreal time on the digital sign through the CMS, even if the CMS islocated “in the cloud”. The CMS can then be used to generate acustomized advertising list based on at least two parameters, thetrained advertising model, and advertising data. According to anembodiment of the invention, the advertising data is combined with thetrained advertising model to enable real-time content triggering.

Embodiments of the invention analyze the type of viewer information,such as age, in particular, an age range or age bracket, and gender, aswell as weather and time information to select the most appropriateadvertisement to be played on the digital sign display device. Furtherreferences herein to “age” shall be understood to include an age range,category or bracket. Real time video analytics data is collected andanalyzed to predict the type of viewers for a future time slot, forexample, the next time slot. Depending on the prediction, appropriateads are played on the display device. The CMS generates a default playlist by using advertising information and advertiser preference. Ifviewership information is not available or the prediction is for somereason not made or not reasonably accurate or for some reason theaccuracy of the prediction is considered suspect, then an offline(default) play list provided to CMS by the advertisers may be played onthe display device.

FIG. 1 illustrates a functional block diagram of an embodiment of theinvention. With reference also to the flow chart 200 in FIG. 2, theprocess starts at 205 with digital sign module 105 displayingadvertisements, processing video analytic data at 210, that is,capturing video analytic data, also referred to herein as viewershipdata, and sending the viewership data to a permanent data store, such asa database, where the data is optionally cleaned or filtered beforebeing accessed at 215 by the data mining module 110 to determine viewingpatterns of any individuals located in front of the digital sign andcapable of viewing the same.

Importantly, at least for the purpose of maintaining privacy, the videoanalytic data can be made or maintained as anonymous video analyticdata, as will be described further below, but essentially, theviewership data is based on census (defined as systematically andregularly acquiring and recording information about members of a givenpopulation), not on sampling, and no images of viewers are captured,stored, or transmitted. The video analytic data capture functionalitymay be embodied in software executed by the digital sign module, and inone embodiment of the invention, captures real time video analytic datathat may be used by module 110 to make real time predictions andschedule a digital advertisement for display, and/or may be used ashistorical data for generating rules (training advertising models) inthe data mining module at 220.

In the data mining module, the advertising models are generated andtrained (that is, refined) at 220 using the video analytic data based onwell-known data mining algorithms such as the Naïve Bayes algorithm, theDecision Trees algorithm and the Association Rules algorithm used indetermining viewing patterns at 215. In addition to using the videoanalytic data, the data mining module may also consider weatherconditions corresponding at the time the video analytic data wascaptured. Weather conditions data, or simply, weather data 135, may bemaintained in a permanent store that can be accessed by data miningmodule 110. In one embodiment, the same permanent store may be used tostore the video analytic data captured by the digital sign module 105 aswell. Further, data mining module 110 receives as input a list ofdigital advertisements 125 available for display on the digital sign,and metadata associated the list of advertisements, such as thedemographic characteristics of viewers to which advertisers wish totarget their advertisements. Digital sign module 105 also supplies tothe data mining module “proof-of-play” data, that is, advertising dataindicating what ads were displayed by the digital sign, when those adswhere displayed, and where those ads were displayed (e.g., by providinga deviceID for the digital sign that can be used as a basis fordetermining the location of the digital sign). In one embodiment of theinvention, sales data 130, for example, from a Point-of-Sale terminal,may be input to data mining module 110. The sales data may be correlatedwith the AVA data to gauge the effectiveness of an advertisement on acertain demographic group in terms of the sale of products or servicesfeatured in the advertisement.

The data mining module 110 generates at 220 trained advertising modelswhich according to an embodiment of the invention are used to predictsuitable advertising categories as well as future viewer types based onprevious viewer types (“passer pattern types”). Once a trainedadvertising model 115 is generated it is transmitted by the data miningmodule and received and stored by the content management system (CMS)120 where along with advertising data, a customized advertising list isgenerated and stored at 225. (Indeed, the CMS stores all trainedadvertising models, advertisement lists, advertiser preferences, andadvertising data.) CMS 120 transmits the customized advertising list at140 to digital sign 105 for display. In one embodiment of the invention,digital sign module 105 comprises a digital signage media player module(digital player module) 145, which may be used to generate theadvertising lists in real time. Module 145 operates as a condensedrepository for information stored in the CMS.

The CMS obtains trained advertising models from the data mining module.In one embodiment, multiple digital sign modules 105, or multipledigital signage media players 145, or multiple digital display devicesare installed. The CMS therefore will segregate the advertising modelsby digital sign module, or digital player, etc., as the case may be. TheCMS generates segregated customized ad lists based on the advertisingmodels and obtained advertising data. The CMS also generates offline adlists, that is, default ad lists, based on advertiser preferencesobtained from advertisers 125. These segregated models, customized adlists, and default ad lists are sent to each digital sign module ordigital player at 230 for display on the digital sign.

While FIG. 1 illustrates modules 110 and 120 as separate functionalblocks, it is appreciated that these modules may co-operate on a singlecomputer system, or may be distributed across multiple computer systems.The computer system(s) may reside in a private communications network,or may be accessible over the Internet “in the cloud”. The digital signfunctional block, including AVA software and the digital signage mediaplayer 145 is typically implemented in or connected to one or moreservers coupled to one or more digital display devices located in anarea where advertisers desire to display digital advertisements on adigital sign, such as a retail store or shopping mall. One or moresensors such as sensor 103, for example, an optical device such as avideo camera, are coupled to the digital sign 105 to capture the videoor images of viewers used by digital sign 105 to generate the AVA data.

Capturing Viewers

Proof-of-Impression (POI) is a metric by which an advertiser measureseffectiveness of a digital advertisement. Essentially, POI indicateswhether individuals near a digital sign viewed or glanced or did notglance at the digital sign. In one embodiment of the invention, toobtain this metric, a number of events occur: 1) a glance is taken atthe digital sign by a viewer while in an area from which the digitaladvertisement can reasonably be observed, 2) the observer, which in oneembodiment is a video camera, is in a position to observe a glance, evena short glance, from a viewer, and 3) once a viewer has glanced at thedigital advertisement, additional glances need not be counted while theviewer remains in the observable area. Measuring POI also involvesdifferentiating, and uniquely tracking different, individual viewerswhile they are within the observable area, and associating each uniquelytracked individual viewer with a state variable relating to looking atthe digital advertisement. Thus, a digital sign measuring POI monitors aviewer at locations from which the viewer can glance at the digitalsign.

Beyond this basic functionality discussed above for measuring POI, anembodiment of the invention may measure viewing time, or glanceduration, relate a particular glance to a particular rendition ordisplay of a digital advertisement on the digital sign, determinelocations and time when the digital sign gets a number of glances, suchas a minimum number or a maximum number of glances. Further, demographicinformation may also be gathered according to one embodiment, such asage, gender, ethnicity, weight, etc., allowing the embodiment to furtherrefine the business intelligence derived from measuring POI. In anotherembodiment, this metric can be correlated with sales data for productsor services offered for sale in the digital advertisements to assess theeffectiveness of the advertisements.

Embodiments may range from a single digital sign with one video camerato multiple digital signs each with one or more cameras. In any case,the video camera is used to track a viewer using sampling rates of, forexample, 5-30 frames per second, and the viewer is assigned a unique,anonymous identity, while the camera looks for glance activity. Theunique anonymous identity allows recording of glance activity for eachindividual viewer while in the observing area in front of a digitalsign.

The ability of an embodiment to capture and track glances for eachindividual in the viewing area is based on the quality of the opticalcapture device, whether a video camera or digital camera, thesophistication of back-end computer vision and video and/or imageprocessing functionality, and on the distance the individual is locatedfrom the video camera. With reference to FIG. 6A, an environment 600 isdepicted in which a digital display screen 610 capable of displaying adigital sign in accordance with an embodiment of the invention islocated. A front-facing video camera 610 (shown in top down view) islocated near the digital display screen, for example, mounted on top ofthe screen. An overall viewing area is illustrated by the perimeterdefined by line 630. Individuals 640 a and 640 b pass through thisviewing area in the direction of travel indicated by respective dashedlines 641 a and 641 b. The video camera and associated back-endprocessing is capable of capturing video or still images and detectingunique individuals within an observable area 625. Thus, individual 640 ais capable of being observed and isolated by video camera 610, whileindividual 640 b is not. For video camera 610 to actually detect a gazeor glance by individual 640 a in the direction of digital display screen605, individual 640 a must pass through or within a glance notice area620. And for camera 610 to detect the length of time individual 640 aglances at the digital display screen, that is, the glance dwell time,individual 640 a must be inside area 615. Thus, the ability of videocamera and associated back-end processing functionality to capture andisolate a unique viewer impacts the ability of digital sign module togather video analytic data on a per viewer basis.

In one embodiment, the ability to track a viewer over a larger area isaccomplished by employing multiple observers, that is, multiple cameras.FIG. 6B illustrates an environment 600 in which a digital display screen610 is located. In this embodiment, three front-facing video cameras 610a, 610 b, and 610 c are mounted on top of the screen. An overall viewingarea is illustrated by the perimeter defined by line 630. Individuals640 a and 640 b pass through this viewing area in the direction oftravel indicated by respective dashed lines 641 a and 641 b. However,the video cameras and associated back-end processing are capable ofcapturing video and detecting unique individuals only within observablearea 625. Since there are multiple video cameras, and because of thedifferent locations in which the video cameras 610 a, 610 b and 610 care placed, and the different directions in which the video cameras arepointed, a larger viewing area is established compared to the embodimentillustrated in FIG. 6A. Since camera observing areas are adjacent andperhaps even overlap, it is feasible to track a viewer over a greaterarea/over a longer period of time. Thus, both individual 640 a and 640 bare capable of being observed and isolated by the video cameras. Thevideo cameras are also able to detect a gaze or glance by bothindividuals since they both pass through or within a glance notice area620 a and 620 b. And the cameras are able to detect the length of timeindividual 640 a glances at the digital display screen, that is, theglance dwell time while tracking individual 640 a inside areas 615 a and615 b. However, since individual 640 b passes through area 615 a but not615 b, the ability of the cameras to determine glance dwell time islimited to while individual 640 b is only within area 615 a.

It is contemplated that multiple digital signs, or multiple digitaldisplay screens, may be co-located, for example, in a department storeor shopping mall that may be concurrently running distinct or differentadvertising campaigns. The different departments can deploy the multipledigital signs in adjacent or nearby digital sign zones. The signs anddigital advertisements displayed thereon may be hosted by the same ordifferent companies or advertisers, and each zone may want to derivedistinct anonymous video analytics for their customers, or distinct dataper advertisement per zone. It is also contemplated according to anembodiment of the invention that advertisements may cross multiplezones, for example, in order to measure effectiveness of storewideadvertising, such as store branding, special offers, etc.

It is appreciated that the video cameras and back-end video processingfunctionality collect sufficient information that individuals may bepersonally identifiable, raising privacy concerns depending on thecountry, state, or context. An embodiment of the invention assigns ananonymous tag to each unique individual viewer while the viewer iswithin an observable area. The tag, then, rather than the individual, isassociated with glance activity and demographic data, etc. When theviewer leaves an observable area, the tag may be kept active for a whilein case the viewer re-enters the observable area and can be reliablyidentified as the same viewer. Within a reasonably short time, however,the tag is recycled and made available to use to track anotherindividual who enters the observable area.

In one embodiment, face detection functionality is implemented inalgorithms embodied in software executed in conjunction with age andgender classification algorithms also embodied in software. In oneembodiment, the Viola-Jones object detection framework developed by PaulViola and Michael Jones in 2001 is used for facial recognition. Thefeatures employed by the detection framework involve the sums of imagepixels within rectangular areas. The Haar Classifier algorithm is usedfor age and gender classification in one embodiment of the invention.Software embodying these algorithms is executed in conjunction withsoftware that gathers demographic information, as well as computervision software, by computer processors, such as Intel Core IS and IntelCore 17 processors and associated hardware.

In one embodiment, the computer vision software is based on the OpenCV.OpenCV is an open source computer vision library developed by IntelCorporation, the assignee of the present invention, and is free forcommercial and research use under a Berkeley Software Distribution (BSD)license. The library is cross-platform, and runs on Apple's Mac OS X, aswell as Microsoft's Windows operating system, and Linux-based operatingsystems. It focuses mainly towards real-time image processing.Generally, the OpenCV library supports real-time capture, video fileimport, basic image treatment (brightness, contrast, threshold, etc.),and object detection (face, body, etc.).

With reference to FIG. 7, an embodiment of the invention as it relatesto capturing anonymous video analytic data is described. Flow chart 700starts at 705 wherein screen shots of viewers are captured. One or moreoptical capture devices such as a still camera or a video camera aremounted on or near a digital sign and take screen shots (e.g., photos)at frequent intervals of time, say every 5 seconds. Thus, during oneminute, 12 screen shots are captured. These digital images are collectedfor a particular period of time, say 1 minute, at 710. Each of theimages in a particular collection is tagged with a unique tag and anumber identifying each image is added to the unique tag, e.g.,hour2-minute1-image1, hour2-minute1-image2 . . . hour2-minute1-image12,at 715. At 720, each individual in the first image, i.e.,hour1-minute1-image1 is then identified. For example, the firstindividual identified may have a tag such ashour2-minute1-image1-individual-1 associated with him. The individual isthen profiled for sex and age, and perhaps other personalcharacteristics. This same process is repeated for other individuals, ifany, in the same photo, e.g., hour2-minute1-image1-individual-2,hour2-minute1-image1-individual-3, etc.

At 725, the individuals identified and tagged in the first photo at 720are searched for and identified in the rest of the photos in the samecollection, e.g., the remaining 11 images or photos in thehour2-minute1-image1 collection. For every photo in which the sameindividual is identified, a period of time is added to the dwell timeparameter for that individual. For example, every time the sameindividual is recognized in one of 12 photos in the collection, 5seconds is added to the dwell time parameter for that individual. At735, each new individual, if any, that wasn't identified in the firstphoto of the collection but appears in the second photo is identified inthe second photo, and the process described above in 720 and 725 repeatsfor the second photo in the collection, and the process repeats againfor any unidentified individuals in the remaining sequence of photos inthe collection.

Once the tagging and computations are performed for a particularcollection, at box 740 in the flow chart, the tagging and computationsare performed for the next collection, e.g., the next one minute ofphotos, and at box 745, the tagging and computations are performed forthe next one hour of photos. At 730, the dwell time based on particularparameters or personal characteristics, such as age and gender istabulated for every collection (e.g., every minute) into a consolidatedlist.

Targeted Advertising

The point of targeted advertising is to show a future audience certainadvertisements that have in the past been viewed for a reasonable amountof time by a previous audience having the same or similar demographicsas the future audience. The process of targeted advertising according toan embodiment of the invention can be characterized in three phases andcorresponding components of the digital advertising system according toan embodiment of the invention: training advertising models in the datamining module 110, creating customized ad lists, or playlists, in theCMS 120, and playing the playlists with a digital sign module 105.

Training Advertising Models

Data mining technology involves exploring large amounts of data to findhidden patterns and relationship between different variables in thedataset. These findings can be validated against a new dataset. Atypical usage of data mining is to use the discovered pattern in thehistorical data to make a prediction regarding new data. In embodimentsof the invention, the data mining module 110 is responsible for trainingand querying advertising models. In particular, two types of advertisingmodels are generated, an advertising category (ad category) model, and apasser pattern model. In the ad category model, a set of rules iscorrelated with the most appropriate ad category for particular audienceor context (e.g., time, location, weather). As an example (in whichdeviceID is an identifier associated with a particular digital sign andcan be used to indicate the location of the digital sign):

If deviceID=561 and time=morning and day=Friday and gender=female andage=young and weather=clear and targeted ads=outdoor, then potentialtarget=very strong (e.g., at 80% confidence)

If deviceID=561 and time=morning and day=Friday and weather=clear andtargeted ads=Ad list 1, then potential target=likely (e.g., at 70%confidence)

In the above example, “Ad list 1” is a list from an ad category providedby an advertiser for a particular context, also stored in the CMS. Inthe passer pattern model, in which viewers pass by a digital sign, a setof rules assists in discovering audience behavior or predicting futureaudience based on previous audience. As an example:

If deviceID=561 and time=morning and day=Friday and weather=clear, thenpasser type=senior female (at 70% confidence)

If deviceID=561 and time=morning and day=Friday and IsWeekend=0 andweather=clear and WOPMaleSenior=0˜1 and WOPFemaleSenior=0˜1 andWOPMaleAdult=0˜1 and WOPFemaleAdult=0˜1 and WOPMaleYoungAdult=0˜1 andWOPFemaleYoungAdult=0˜1 and WOPMaleChild=0˜1 and WOPFemaleChild=0˜1 thenWONMaleSenior=0˜1 and WONFemaleSenior=0˜1 and WONMaleAdult=0˜1 andWONFemaleAdult=0˜1 and WONMaleYoungAdult=0˜1 and WONFemaleYoungAdult=0˜1and WONMaleChild=0˜1 and WONFemaleChild=0˜1.

FIG. 3 provides an illustration 300 of the video analytic data 305gathered by the digital sign module 105 and provided as input to thedata mining module 110 along with advertising data 310, and weather data315 also provided as input to the data mining module. At 325, the datamining module, in one embodiment, generates and trains, that is,refines, models on a regular basis, whether daily, weekly, monthly, orquarterly, depending on the context and data characteristics, the basicprinciple being that if the patterns/rules derived from historical datadon't change, there is no need to train or regenerate models.

Video analytic data 305, according to one embodiment of the invention,comprises the date and time a particular digital advertisement wasdisplayed on the digital sign, as well the day the ad was displayed, adeviceID or alternatively a displaylD that indicates a location at whichthe ad was displayed. Sensor input also provides the amount of time thatthe digital ad was viewed while being displayed on the digital displaydevice. Finally, an indication of the potential target viewership basedon characteristics such as age and gender is included.

Advertising data 310, received by data mining module 110 from theadvertisements repository 125, includes the date and time a particulardigital advertisement was scheduled for display on the digital sign, aswell a deviceID or alternatively a displayID that indicates a locationat which the ad was scheduled to be displayed, and a duration or lengthof the digital advertisement, in seconds. Weather data 315 includes thedate, temperature, and conditions on or around the date and time thedigital advertising was displayed on the digital sign.

2. Creating Advertising List

After the advertising models are generated by data mining module 110,the models are transferred to the Content Management System (CMS) 120.The CMS then extracts the ad categories from the ad category models andcreates an ad category list. The advertising data corresponding to thesead categories are then retrieved from a permanent store, such as adatabase, accessible to CMS 120. Based on the ad category list, CMS 120also creates advertisement lists. In one embodiment of the invention, agenerated ad list may be modified based on advertiser input at 125. Inone embodiment, each advertiser is assigned a certain priority that canbe used as a basis for rearranging the ad list.

FIG. 4 illustrates the flow of events and information 400 in the CMS120. The CMS probes the data mining module 110. The frequency of probingin one embodiment of the invention is once a day. The CMS gets all thecurrent rules and predictive lists generated by the data mining moduleand stores the information in a permanent store. Advertisementscorresponding to particular categories are obtained from the tentativeplaylist based on advertiser preferences, the ad list generator, andadvertisement repository 125. In “offline mode” the tentative playlistis used as the default playlist. A data store, such as the StructuredQuery Language (SQL) server database depicted in FIG. 4, is associatedwith the advertisements repository 125, according to one embodiment.From that data store various information is retrieved includingadvertising data for the particular categories such as the advertisingname, the advertising type, and a path in a file directory of the adrepository that holds the files for the actual advertisements. The CMSconnects to the advertising repository to get the advertisements locatedat the given paths. All the models and the corresponding advertisinglists generated so far get stored at the CMS. A digital sign module willonly contain a subset of these models and advertising lists that aresuitable for the digital sign module's targeted audience. The CMSconnects to the digital sign module and pushes to it the models andadvertising lists suitable for it.

Referring again to FIG. 4, the Player Specific Model Extractor 435connects to the data mining module 110, and obtains both the passerpattern and ad category models. These models are segregated per playerand sent to digital sign module (digital player) 105. Data mining module110 provides models that are suitable for the current day and date aswell as the current weather, for example, the current day is Friday Sep.9, 2011, with a forecasted clear morning and a rainy evening. The modelextractor 415 extracts the ad categories from ad category models andsends such to the ad(vertising) list generator 420 for each digitalsign. The models are parsed and an advertisement is selected for eachtime slot. For example, assuming that the average advertisement durationis 10 seconds, 360 advertisements are selected for each hour.

The ad list generator 420 fetches ads for the categories that arescheduled for a particular day, along with the advertising data. Thetentative play list generator module analyzes the ad list and generatesa tentative play list that is sent to the advertiser input scheduler.Generator 420 compiles a play list based on arranged advertisingcategories, and an advertising list. The selection of advertisements isbased on the roulette-wheel selection, according to one embodiment,where each advertisement is randomly picked based on a probability. Theadvertiser input scheduler module 420 fetches advertiser input andincorporates advertiser preferences in the tentative play list togenerate the default play list which is sent to the digital sign module.

The ad refresh module 405 checks for new advertisements by comparing theversions maintained in a permanent store, e.g., a database, accessibleto the CMS against versions obtained from the advertisements repository.If a new version of an advertisement is found then the actualadvertisements (video files) are transferred to the digital sign module.If new ads (ads which were not present earlier in the ad repository) arepresent then module 405 fetches advertising data from SQL server DB 440and sends such to the digital sign module 110.

3. Playing playlist with Digital Sign Module

CMS 120 transfers the ad list at 140 to the digital sign module 105. Inone embodiment, digital sign module generates a default playlist byextracting file directory path information from the ad list and thenretrieving the corresponding advertisements from an advertisementsrepository 125 that holds the advertisement files. The digital signmodule operates in both an online and an offline mode. In the offlinemode, the default playlist is played to the digital sign. The playlistfor the online mode is generated using the real time VA data describedbelow with reference to FIG. 5 which illustrates the flow of events andinformation 500 in the digital sign module (digital player) 105.

The video analytic (VA) analyzer (predictor) module 510 fetches realtime VA data and retrieves passer pattern models from CMS 120 to predictVA data. The predicted VA data is sent to model analyzer module 515. Themodel analyzer module 515 receives the predicted VA data as input andretrieves ad category models from CMS 120 and extracts an advertisingcategory based on the predicted VA data. In one embodiment, confidencevalues of the passer pattern model and the ad category model aremultiplied to generate a multiplied confidence value. If the multipliedconfidence value is greater than a threshold, then an advertisement forthe extracted advertising category is sent to the tentative play listgenerator 520, otherwise the digital sign module continues in an offlinemode. The tentative play list generator module 520 retrieves anadvertising list from CMS 120 and generates the tentative play list byconsidering the advertising category from the model analyzer and sendsthe tentative play list to online mode.

Scheduler module 525 contains following three sub modules, an onlinesub-module that selects an advertisement based on a probabilitydistribution and associates it with an actual advertisement that is thenscheduled and sent to display at 545, an offline sub-module that selectsan advertisement from a default play list based on the scheduling timeand associates it with an actual advertisement that is then scheduledand sent to display at 545, and a preference sub-module that checks foran advertiser preference and schedules an advertiser preferredadvertisement for display at 545.

Real Time Content Triggering

According to an embodiment of the invention, viewers are targeted inreal time. The real time processing takes place at the digital signmodule. Each digital sign module receives both advertising category aswell as passer pattern models from the CMS. Broadly speaking, accordingto one embodiment, a plurality of viewers are detected, the demographicsof those viewers are analyzed, and viewing patterns for those viewers iscollected. Based thereon, advertisements are targeted to the digitalsign module. In one embodiment, the passer pattern model has a parameterreferred to as the confidence value that indicates whether to playdigital advertisements in online mode or offline mode. Thus, when theAVA data is analyzed in real time mode, the rules from the passerpattern model are chosen and the confidence value attached to theserules is compared with a threshold value. If the confidence value fallsshort of the threshold, then the default playlist is played, but if thevalue is the same or greater than the threshold, then the advertisementslist is modified and advertisements targeting current viewers areplayed. After the current advertisement is played, either the digitalsign module can return to playing the default playlist or could continueplaying targeted advertisements.

CONCLUSION

In this description, numerous details have been set forth to provide amore thorough explanation of embodiments of the present invention. Itshould be apparent, however, to one skilled in the art, that embodimentsof the present invention may be practiced without these specificdetails. In other instances, well-known structures and devices have beenshown in block diagram form, rather than in detail, in order to avoidobscuring embodiments of the present invention.

Some portions of this detailed description are presented in terms ofalgorithms and symbolic representations of operations on data within acomputer memory. These algorithmic descriptions and representations arethe means used by those skilled in the data processing arts to mosteffectively convey the substance of their work to others skilled in theart. An algorithm is here, and generally, conceived to be aself-consistent sequence of steps leading to a desired result. The stepsare those requiring physical manipulations of physical quantities.Usually, though not necessarily, these quantities take the form ofelectrical or magnetic signals capable of being stored, transferred,combined, compared, and otherwise manipulated. It has proven convenientat times, principally for reasons of common usage, to refer to thesesignals as bits, values, elements, symbols, characters, terms, numbers,or the like.

It should be borne in mind, however, that all of these and similar termsare to be associated with the appropriate physical quantities and aremerely convenient labels applied to these quantities. Unlessspecifically stated otherwise, as apparent from this discussion, it isappreciated that throughout the description, discussions utilizing termssuch as “processing” or “computing” or “calculating” or “determining” or“displaying” or the like, refer to the action and processes of acomputer system, or similar electronic computing device, thatmanipulates and transforms data represented as physical (electronic)quantities within the computer system's registers and memories intoother data similarly represented as physical quantities within thecomputer system memories or registers or other such information storage,transmission or display devices.

Embodiments of present invention also relate to apparatuses forperforming the operations herein. Some apparatuses may be speciallyconstructed for the required purposes, or it may comprise a generalpurpose computer selectively activated or reconfigured by a computerprogram stored in the computer. Such a computer program may be stored ina computer readable storage medium, such as, but not limited to, anytype of disk including floppy disks, optical disks, CD-ROMs, DVD-ROMs,and magnetic-optical disks, read-only memories (ROMs), random accessmemories (RAMs), EPROMs, EEPROMs, NVRAMs, magnetic or optical cards, orany type of media suitable for storing electronic instructions, and eachcoupled to a computer system bus.

The algorithms and displays presented herein are not inherently relatedto any particular computer or other apparatus. Various general purposesystems may be used with programs in accordance with the teachingsherein, or it may prove convenient to construct more specializedapparatus to perform the required method steps. The required structurefor a variety of these systems appear from the description herein. Inaddition, embodiments of the present invention are not described withreference to any particular programming language. It will be appreciatedthat a variety of programming languages may be used to implement theteachings of the invention as described herein.

A machine-readable medium includes any mechanism for storing ortransmitting information in a form readable by a machine (e.g., acomputer). For example, a machine-readable medium includes read onlymemory (“ROM”); random access memory (“RAM”); magnetic disk storagemedia; optical storage media; flash memory devices; etc.

Whereas many alterations and modifications of the embodiment of thepresent invention will no doubt become apparent to a person of ordinaryskill in the art after having read the foregoing description, it is tobe understood that any particular embodiment shown and described by wayof illustration is in no way intended to be considered limiting.Therefore, references to details of various embodiments are not intendedto limit the scope of the claims that recite only those featuresregarded as essential to the invention.

What is claimed is:
 1. A method for selecting advertising for display ona digital sign, comprising: gathering video analytics data from aplurality of previous viewers of advertisements displayed on the digitalsign; analyzing the gathered video analytics data to determine viewingpatterns of the previous viewers based on the gathered video analyticsdata; training advertising models based on the viewing patterns; andselecting an advertisement from a plurality of advertisements fordisplay on the digital sign based on the trained advertising models. 2.The method of claim 1, wherein selecting the advertisement for displayon the digital sign comprises selecting the advertisement for display onthe digital sign for viewing by future viewers belonging to a same orsimilar demographic as the previous viewers.
 3. The method of claim 1,further comprising receiving advertiser preferences as to whichadvertisement to display on the digital sign for viewing by futureviewers, and wherein selecting the advertisement for display on thedigital sign based on the trained advertising models comprises selectingthe advertisement for display based on one or both of the trainedadvertising models and the advertiser preferences.
 4. The method ofclaim 1, wherein gathering video analytics data comprises gatheringanonymous video analytics data.
 5. The method of claim 1, wherein thevideo analytics data comprises one or more previous viewercharacteristics, the characteristics comprising gender and age.
 6. Themethod of claim 5, wherein the video analytics data further comprisesone or more of a date and time, a day-of-the-week, a timeslot, a displaylocation, a viewing time, and an indication of whether the previousviewers are target viewers based on viewer characteristics associatedwith the previous viewers of advertisements displayed on the digitalsign.
 7. The method of claim 1, further comprising: receivingadvertising data corresponding to the advertisements displayed on thedigital sign; and wherein training advertising models based on theviewing patterns comprises training advertising models based on one orboth of the viewing patterns and the advertising data.
 8. The method ofclaim 7, wherein the advertising data comprises a date and time, adisplay location, an ad category, and a duration or length for eachadvertisement displayed on the digital sign.
 9. The method of claim 1,further comprising: gathering weather data corresponding to a timeduring which the advertisements were displayed on the digital sign; andwherein training advertising models based on the viewing patternscomprises training advertising models based on one or both of theviewing patterns and the weather data.
 10. The method of claim 1 furthercomprising: receiving point-of-sale data; and correlating the viewingpatterns with the point-of-sale data to determine an effect of theadvertisements displayed on the digital sign on a sale of a product orservice identified in the advertisements.
 11. The method of claim 1,further comprising displaying the selected advertisement on the digitalsign.
 12. A digital advertising system, comprising: an input to receivea plurality of digital advertisements; an output via which to transmitthe digital advertisements for display on a digital sign module; a datamining module to couple to the digital sign module to retrieve videoanalytics data relating to a plurality of previous viewers of thedigital advertisements displayed on the digital sign and generatetrained advertising models based on the video analytics data accordingto a data mining algorithm; and a content management system modulecoupled to the data mining module to receive the trained advertisingmodels, and to the input to receive the plurality of digitaladvertisements, the content management system to generate and transmitto the digital sign module a subset of the plurality of advertisementsfor display based on the trained advertising models and the plurality ofdigital advertisements.
 13. The digital advertising system of claim 12,further comprising an advertisements module coupled to the input toprovide the plurality of digital advertisements.
 14. The digitaladvertising system of claim 12 further comprising the digital signmodule coupled to the output to receive the digital advertisements, thedigital sign module to display the digital advertisements and to captureand transmit to a permanent store the video analytics data.
 15. Thedigital advertising system of claim 14, further comprising the datamining module coupled to the permanent store to retrieve the videoanalytics data.
 16. The digital advertising system of claim 15, whereinthe data mining module generates trained advertising models based on thevideo analytics according to one of a number of well-known data miningalgorithms including a Naive Bayes, a Decision Trees, and an AssociationRules, data mining algorithm.
 17. The digital advertising system ofclaim 14, wherein the digital sign module comprises a digital signplayer module in which to store, and from which to transmit to a digitaldisplay screen, the subset of the plurality of advertisements fordisplay.
 18. The digital advertising system of claim 12, wherein theinput further receives advertiser preferences as to which advertisementto transmit to the digital sign, and wherein the content managementsystem to generate and transmit to the digital sign module a subset ofthe plurality of advertisements for display based on the trainedadvertising models, the plurality of digital advertisements, and theadvertiser preferences.
 19. The digital advertising system of claim 12,wherein the data mining module to couple to the digital sign module toretrieve video analytics data and advertising data corresponding todisplay of the advertisements transmitted for display to the digitalsign, and generate trained advertising models based on the videoanalytics data and the advertising data according to the data miningalgorithm.
 20. The digital advertising system of claim 12, wherein thedata mining module to receive weather data corresponding to a timeduring which the advertisements transmitted for display to the digitalsign were displayed, and generate training advertising models based onthe video analytics data and the weather data according to the datamining algorithm.
 21. The digital advertising system of claim 12,wherein the data mining module to couple to the digital sign module toretrieve video analytics data comprises the data mining module to coupleto the digital sign module to receive anonymous video analytics data.22-25. (canceled)
 26. A computer readable medium which containsinstructions that when executed by the computer, cause the computer toperform the following steps: gathering video analytics data from aplurality of previous viewers of advertisements displayed on the digitalsign; analyzing the gathered video analytics data to determine viewingpatterns of the previous viewers based on the gathered video analyticsdata; training advertising models based on the viewing patterns; andselecting an advertisement from a plurality of advertisements fordisplay on the digital sign based on the trained advertising models. 27.The apparatus of claim 26, wherein the medium contains furtherinstructions that when executed by the computer cause the computer toperform the step of receiving advertiser preferences as to whichadvertisement to display on the digital sign for viewing by futureviewers, and wherein selecting the advertisement for display on thedigital sign based on the trained advertising models comprises selectingthe advertisement for display based on one or both of the trainedadvertising models and the advertiser preferences.
 28. (canceled) 29.The apparatus of claim 28, wherein the video analytics data furthercomprises one or more of a date and time, a day-of-the-week, a timeslot, a display location, a viewing time, and an indication of whetherthe previous viewers are target viewers based on viewer characteristicsassociated with the previous viewers of advertisements displayed on thedigital sign.
 30. The apparatus of claim 26, wherein the medium containsfurther instructions that when executed by the computer cause thecomputer to perform the following step: receiving advertising datacorresponding to the advertisements displayed on the digital sign; andwherein training advertising models based on the viewing patternscomprises training advertising models based on one or both of theviewing patterns and the advertising data.